Matching Items (72)
Description
Cocaine use remains a prevalent problem, yet there are no effective pharmacological treatments against cocaine use disorders. Cocaine is known to affect serotonin neurotransmission in the brain. Previous data has shown the modulatory role of CP 94,253, a serotonin 1B receptor (5-HT1BR) agonist on cocaine self-administration at different periods of the use-abstinence-relapse cycle. CP 94,253 facilitates cocaine self-administration in rats during the use maintenance phase, where rats are receiving daily intake of cocaine, yet attenuates it after a period of abstinence, when drug delivery is discontinued and rats are placed in home cages. Here we study the therapeutic potential of 5-HT1BR agonist pre-treatment on cocaine self-administration during these different time periods. Male and free-cycling female rats were trained to lever-press for cocaine (0.75 mg/kg i.v.) or sucrose pellets, until they met stable performance for total number of infusions on a fixed ratio 5 schedule of reinforcement. Rats were then tested with either the FDA-approved but less selective 5-HT1BR agonist zolmitriptan (3, 5.6, and 10 mg/kg s.c.; in descending order) prior to a period of abstinence or the more selective 5-HT1BR agonist CP 94,253 (5.6 mg/kg s.c.) after a period of prolonged abstinence and relapse (i.e. resumption of daily cocaine self-administration after a period of abstinence). Each session ran for 2 hours during which the training dose was available for the 1st hour and a low dose of cocaine (0.075 mg/kg i.v.) for the 2nd hour. Zolmitriptan was found to attenuate cocaine self-administration measures at a dose of 3 and 5.6 mg/kg when testing at the low dose of cocaine and at all three doses (3, 5.6, and 10 mg/kg) when testing at the training dose of cocaine. Zolmitriptan at the doses effective at attenuating cocaine intake did not alter sucrose self-administration. CP 94,253 (5.6 mg/kg s.c.) was found to have significant attenuative effects on self-administration measures both after a period of prolonged abstinence and after a period of relapse. Overall, these experiments showed that zolmitriptan decreased cocaine reinforcement without altering sucrose reinforcement as well as that CP 94,253 attenuates cocaine intake even after a period of relapse. These findings support the therapeutic potential of 5-HT1BR agonists as pharmacological treatments for cocaine use disorders.
ContributorsLe, Tien (Author) / Neisewander, Janet (Thesis director) / Newbern, Jason (Committee member) / Garcia, Raul (Committee member) / Chemical Engineering Program (Contributor, Contributor) / School of International Letters and Cultures (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
Consequences of drug abuse and addiction affect both men and women, but women tend to rapidly progress through drug addiction phases, have higher drug dependency, and have higher relapse rates. Ovarian hormones fluctuate with female reproductive cycles and are thought to cause increased sensitivity to psychostimulants. Additionally, intermittent social defeat stress induces social avoidance, weight loss, and long-lasting cross-sensitization to psychostimulants, which is associated with increased FosB/ΔFosB expression in the nucleus accumbens (NAc) shell. In this study, we examined the estrous cycle in female rats on social defeat stress-induced amphetamine cross-sensitization through FosB/ΔFosB expression in the NAc shell. Every third day for ten days, we induced social defeat stress in rats through short confrontations with a lactating female resident rat and her pups. In parallel, a group of rats were handled for control. Vaginal swabs were taken daily to assess estrous stage. Ten days after the last stress exposure, rats were administered a low dose of amphetamine (0.5 mg/kg, i.p.), which induced cross-sensitization in stressed rats, evidenced by enhanced locomotor activity. Approximately 3-10 days after amphetamine challenge, brain tissue was collected for immunohistochemistry analyses. Stressed female rats had lower body weight gain, higher social avoidance, and increased FosB/ΔFosB expression in the NAc shell. Differences in FosB/ΔFosB expression in the NAc shell was also observed in handled animals in different estrous stages. Furthermore, rats in proestrous/estrous stages displayed enhanced social defeat stress-induced amphetamine cross-sensitization in comparison to rats in metestrous/diestrous stages. Elucidating the effects of the female reproductive cycle on drug use may provide a novel approach to treatments or therapies in preventing women’s stress-induced vulnerability to substance abuse.
ContributorsAzuma, Alyssa (Author) / Neisewander, Janet (Thesis director) / Nikulina, Ella (Thesis director) / Hammer, Ronald (Committee member) / School of Mathematical and Natural Sciences (Contributor) / Watts College of Public Service & Community Solut (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
Abstract White matter thickness correlates with various mental illness. Commissure white matter tracts are responsible for interconnecting the same cortical area in both hemispheres. Injury to the brain can result in thinning and shrinkage even collapsing and detachment of the white matter tracts' myelin sheaths. Injury can affect cognitive function and time points are essential for therapeutic intervention. Research is beginning to identify gradual long-term neurodegenerative effects. With the advancement of brain imaging technology, we know that Wallerian degeneration has a significant negative impact on the white matter tracts throughout the brain (Johnson, Stewart, & Smith, 2013). If major tracts become injured like, the corpus callosum, then it can affect interhemispheric communication. Once myelin is damaged the axon becomes vulnerable, and the mechanisms of nerve recovery are not well known. Myelin sheath recovery has been studied in hopes to proliferate the oligodendrocytes that make up for the atrophied myelin. Neurotoxic chemicals released at activation of macrophages which hinders the brains ability to proliferate myelin protein needed for myelin differentiation adequately. In the central nervous system myelin has mechanisms to recover. Neurogenesis is a naturally occurring recovery mechanism seen after brain injury. Understanding the time points in which brain recovery occurs is important for treatment of diffuse injuries that cannot be identified through some imaging techniques. To better understand critical timepoints of natural recovery after brain injury can allow further investigation for early intervention to promote adequate recovery.
ContributorsLiptow, Kristen Ashley (Author) / Neisewander, Janet (Thesis director) / Law, L. Matthew (Committee member) / School of Social and Behavioral Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2018-12
Description
Transient receptor potential (TRP) channels are a diverse family of polymodally gated nonselective cation channels implicated in a variety of pathophysiologies. Two channels of specific interest are transient receptor potential melastatin 8 (TRPM8) and transient receptor potential vanilloid 1 (TRPV1).
TRPM8 is the primary cold sensor in humans and is activated by ligands that feel cool such as menthol and icilin. It is implicated to be involved in a variety of cancers, nociception, obesity, addiction, and thermosensitivity. There are thought to be conserved regions of structural and functional importance to the channel which can be identified by looking at the evolution of TRPM8 over time. Along with this, looking at different isoforms of TRPM8 which are structurally very different but functionally similar can help isolate regions of functional interest as well. Between TRP channels, the transmembrane domain is well conserved and thought to be important for sensory physiology. To learn about these aspects of TRPM8, three evolutionary constructs, the last common primate, the last common mammalian, and the last common vertebrate ancestor TRPM8 were cloned and subjected to preliminary studies. In addition to the initial ancestral TRPM8 studies, fundamental studies were initiated in method development to evaluate the use of biological signaling sequences to attempt to force non-trafficking membrane protein isoforms and biophysical constructs to the plasma membrane. To increase readout for these and other studies, a cellular based fluorescence assay was initiated. Eventual completion of these efforts will lead to better understanding of the mechanism that underlie TRPM8 function and provide enhanced general methods for ion channel studies.
Beyond TRPM8 studies, an experiment was designed to probe mechanistic features of TRPV1 ligand activation. TRPV1 is also a thermosensitive channel in the TRP family, sensing heat and vanilloid ligands like capsaicin, commonly found in chili peppers. This channel is also involved in many proinflammatory interactions and associated with cancers, nociception, and addiction. Better understanding binding interactions can lead to attempts to create therapeutics.
TRPM8 is the primary cold sensor in humans and is activated by ligands that feel cool such as menthol and icilin. It is implicated to be involved in a variety of cancers, nociception, obesity, addiction, and thermosensitivity. There are thought to be conserved regions of structural and functional importance to the channel which can be identified by looking at the evolution of TRPM8 over time. Along with this, looking at different isoforms of TRPM8 which are structurally very different but functionally similar can help isolate regions of functional interest as well. Between TRP channels, the transmembrane domain is well conserved and thought to be important for sensory physiology. To learn about these aspects of TRPM8, three evolutionary constructs, the last common primate, the last common mammalian, and the last common vertebrate ancestor TRPM8 were cloned and subjected to preliminary studies. In addition to the initial ancestral TRPM8 studies, fundamental studies were initiated in method development to evaluate the use of biological signaling sequences to attempt to force non-trafficking membrane protein isoforms and biophysical constructs to the plasma membrane. To increase readout for these and other studies, a cellular based fluorescence assay was initiated. Eventual completion of these efforts will lead to better understanding of the mechanism that underlie TRPM8 function and provide enhanced general methods for ion channel studies.
Beyond TRPM8 studies, an experiment was designed to probe mechanistic features of TRPV1 ligand activation. TRPV1 is also a thermosensitive channel in the TRP family, sensing heat and vanilloid ligands like capsaicin, commonly found in chili peppers. This channel is also involved in many proinflammatory interactions and associated with cancers, nociception, and addiction. Better understanding binding interactions can lead to attempts to create therapeutics.
ContributorsShah, Karan (Author) / Van Horn, Wade (Thesis director) / Neisewander, Janet (Committee member) / Biegasiewicz, Kyle (Committee member) / School of Mathematical and Statistical Sciences (Contributor) / School of Molecular Sciences (Contributor, Contributor) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
The serotonin (5-hydroxytryptamine, 5-HT) system is implicated in the study of drug addiction. Of the 14 known serotonin receptor subtypes, the 5-HT7R is the most recently discovered and, therefore, one of the least rigorously studied. However, the 5-HT7R has been shown to play a role in multiple psychiatric conditions, including depression, anxiety, and alcoholism. This is not surprising, as the 5-HT7R is expressed in brain regions associated with emotion and reward, such as the amygdala, dorsal raphe nucleus, and striatum. MC-RG19 is a novel 5-HT7R antagonist which has >114-fold selectivity for the 5-HT7 over other serotonin receptors. This compound was developed by our collaborators at the Temple University School of Pharmacy. Due to this specificity, and the implications of the 5-HT7 in behavior, we hypothesized that MC-RG19 would have an effect on addiction-related behaviors. We investigated the effects of MC-RG19 on spontaneous locomotion, cue-induced reinstatement, and cocaine/sucrose multiple schedule self-administration. We observed a dose-dependent decrease in spontaneous locomotor activity with significance at a MC-RG19 dose of 10 mg/kg. A dose of 5.6 mg/kg, which did not significantly decrease locomotion, significantly reduces cocaine-seeking behavior (active lever pressing) in response to the reintroduction of drug-paired cues after a period of extinction. No dose (3, 5.6, or 10 mg/kg) produced a significant effect on a multiple schedule of self-administration with alternating availability of sucrose and cocaine as the reinforcer. These results indicate that MC-RG19 has an effect on the incentive \u2014 motivational properties of reward-paired cues.
ContributorsCarlson, Andrew Kenneth (Author) / Neisewander, Janet (Thesis director) / Gipson-Reichardt, Cassandra (Committee member) / Harrington Bioengineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
Substance abuse disorder is a debilitating condition characterized by recurring drug-seeking behaviors and high rates of relapse. In male rats, this tendency to engage in drug-seeking behavior can be inhibited by environmental enrichment (EE) during abstinence. We have shown previously that cocaine-seeking behavior is associated with an increase in addiction-related genes such as Arc and CamkIIa and a decrease in the microRNA miR-495. We have also shown that miR-495 inhibits expression of Arc and CamkIIa post-transcriptionally. Therefore, we hypothesize that reduced cocaine-seeking behavior in EE female rats is associated with a downregulation of these addiction-related genes as well as an upregulation of miR-495 in the NAc shell. Based on previous studies that highlight differences between male and female motivation for cocaine, we also hypothesize that EE will not affect female motivation for cocaine as robustly as males. After acquiring cocaine through self-administration, females were assigned to either an enriched environment (EE) condition or an isolated condition, where they remained during abstinence. They were then given a one-hour cue-reactivity test, during which cocaine-seeking behavior differed significantly between the EE and isolated groups. We also found that the addiction-related genes Arc and CamkIIa were downregulated in the NAc core of EE females. Future research is needed to examine the role of miR-495 in these changes in behavior and gene expression. Overall, the results suggest that EE is protective against relapse to cocaine-seeking in females and may normalize the dysregulation of genes by cocaine.
ContributorsSt Peter, Madeleine Kay (Author) / Neisewander, Janet (Thesis director) / Newbern, Jason (Committee member) / Powell, Gregory (Committee member) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2017-05
Description
MicroRNAs are small, non-coding transcripts that control gene expression by preventing mRNA from translating into proteins. They have been implicated to play a role in many drug addictions. We previously found that miR-495 targets several addiction-related genes (ARGs) and is highly expressed in the nucleus accumbens (NAc). We also found miR-495 is downregulated in the NAc following acute cocaine administration, and cocaine motivation measured by breakpoint on a progressive ratio schedule of cocaine reinforcement is decreased when miR-495 is overexpressed. In this study, we manipulated the endogenous levels of miR-495 by using a viral vector. Using an animal model, rats were first trained for self-administration on a fixed ratio (FR) schedule of reinforcement. After they were infused with a lentivirus to overexpress (LV-miR-495) or decrease (LV-Sponge) miR-495, in the NAc shell. The rats were then tested for extinction and reinstatement of cocaine-seeking behavior, which are measures of motivation for cocaine. We measured the relative levels of miR-495 in the NAc shell using qRT-PCR. Our results show that overexpression of miR-495 decreased cocaine-seeking behavior during extinction and cocaine reinstatement, as we hypothesized. Surprisingly, miR-495 LV-sponge also decreased cocaine-seeking behavior in extinction, not as we hypothesized. However, we found that LV-Sponge failed to significantly decrease levels of miR-495 as intended. In conclusion, understanding why LV-Sponge decreased, rather than increased, miR-495 will need further study, however, the results with LV-miR-495 extend previous findings that miR-495 plays a vital role in the molecular mechanism that influences motivation to seek cocaine.
ContributorsChaudhury, Trisha (Author) / Neisewander, Janet (Thesis director) / Newbern, Jason (Committee member) / Powell, Gregory (Committee member) / Department of Psychology (Contributor) / School of Molecular Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2017-05
Description
In this field study, 103 individuals from two different music festivals, one in California and one in Michigan, were surveyed to observe current attitudes surrounding harm reduction strategies associated with psychedelic drug usage in the EDM scene. Topics from the survey included but were not limited to the chemical testing of substances, frequency of usage, spacing between usage, and adverse effects associated with usage. It was concluded that harm reduction education should become more integrated within the EDM scene in order to provide research-based evidence for ravers to make better decisions for their health. While authorities have pushed "just say no", the lack of education altogether in the community is life threatening. Education is the key to saving minds, bodies, and lives.
ContributorsForcade, Shea Danielle (Author) / Olive, Foster (Thesis director) / Neisewander, Janet (Committee member) / Gipson-Reichardt, Cassandra (Committee member) / School of Nutrition and Health Promotion (Contributor) / Barrett, The Honors College (Contributor)
Created2016-12
Description
Nicotine use is an outstanding public health problem with associated social and economic consequences. Nicotine is an active alkaloid compound in tobacco and is recognized as a psychoactive drug. Preclinically, nicotine addiction and relapse can be modeled using a self-administration-reinstatement paradigm. Here, we used a nicotine self-administration and contingent cue-induced reinstatement model to examine rapid, transient synaptic plasticity (t-SP) induced by nicotine cue-triggered motivation. Although preliminary, treatment with the NMDA GluN2B subunit antagonist, ifenprodil, reduced reinstated nicotine seeking, and increased the percentage of spines with smaller head diameters. Thus, future studies are needed to fully parse out the role of NAcore GluN2B receptors in cued nicotine seeking and t-SP.
ContributorsMccallum, Joseph John (Author) / Gipson-Reichardt, Cassandra (Thesis director) / Neisewander, Janet (Committee member) / Olive, Michael Foster (Committee member) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2017-05
Description
Abstract: The RAS/RAF/MEK/ERK (RAS signaling cascade) pathway is a highly conserved biochemical signaling cascade that exists in every mammalian cell. The pathway is highly versatile in functionality due to hundreds of substrates that regulate metabolism, apoptosis, and proliferation in both adult and developing tissues. The RAS signaling cascade has been examined in the context of cancers since mutations can lead to the disruption of the cell cycle and unregulated cellular proliferation. In addition, germline mutations in the pathway have been shown to cause a group of syndromes known as RASopathies. RASopathies are marked by facial defects, seizures, developmental delays, and cognitive dysfunction often due to enhanced activation of the RAS signaling cascade. Although there are noted factors that play roles in neurological disease, such as a hyperactivated RAS signaling cascade, the pathogenesis of neurological defects is not fully understood. The Newbern lab uses conditional mutagenesis to examine how hyperactivating the RAS/MAPK pathway affects GABAergic neurons in a cortical microcircuit, especially during development. Inhibitory neurons are implicated in seizures and epilepsy is common in RASopathies, thus GABAergic neurons are of particular interest (Rauen, 2013). Gain-of-function ERK was not found to significantly alter global locomotion or anxiety-like behaviors. Interestingly, the mutant mice exhibited freezing behavior in the first twenty-two seconds of the open field assay that appeared to be consistent with absence seizures. Direct EEG recordings confirmed spontaneous seizure activity and mutants had a reduced seizure threshold. We hypothesized that these deficits were due to altered GABAergic neuron number. Indeed, mutant mice exhibited a 30% reduction in total cortical GABAergic neuron number. This effect appeared to be cell subtype specific, where neurons expressing somatostatin (SST) existed in similar numbers among controls and mutants but a significant decrease in the number of those expressing parvalbumin (PV) was observed. I hypothesized that a recently identified GABAergic neuron expressing vasoactive intestinal polypeptide (VIP) would also be affected in such a manner that fewer VIP neurons exist in the mutants than the wildtype. Subsequent histological studies in these mice found there to be no significant difference in VIP populations. Selective affects seem to only have an effect on the development of PV neurons in the cortex. Further studies are underway to define the mechanism responsible for aberrant GABAergic neuron development.
ContributorsGonzalez, Javier (Author) / Newbern, Jason (Thesis director) / Neisewander, Janet (Committee member) / Barrett, The Honors College (Contributor)
Created2016-05